School of Veterinary Medicine

Shuji Suzuki

  (鈴木 周二)

Profile Information

Affiliation
Nippon Veterinary and Life Science University
Degree
博士(獣医学)

J-GLOBAL ID
201301091946144408
researchmap Member ID
B000234436

Papers

 50
  • Daisuke YAZAWA, Masakazu SHIMADA, Nobuo KANNO, Shuji SUZUKI, Takuya YOGO, Yasuji HARADA, Yasushi HARA
    Journal of Veterinary Medical Science, 2024  
  • Sachiyo Tanaka, Shuji Suzuki, Satoshi Soeta, Takeharu Kaneda, Yasushi Hara
    Open Veterinary Journal, 13(12) 1708-1708, 2023  
    Background: We previously reported that myocardial fibrosis may be one of the causes of left ventricular hypertrophy and cardiac dysfunction in dogs with hyperglucocorticism (HGC). The detailed mechanism by which myocardial fibrosis of the left ventricle occurs in dogs with hyperglucocorticism (HGC) remains unclear. Aim: This study investigated the mechanism by which HGC causes fibrosis of the left ventricle.Methods: The impacts of HGC on the heart by comparing samples obtained from high-dose glucocorticoid-treated (P) and untreated (C) dogs. The P group included healthy Beagle dogs (n=6) treated with prednisolone (2 mg/kg, bid, po) for 84 days, and the C group included healthy Beagle dogs (n=6) euthanized for unrelated reasons. In three of the P group dogs, serum was collected before the start of administration (Day 0) and on Day 84 to measure angiotensin II concentrations and oxidative stress markers (8-hydroxy-2’-deoxyguanosine (8OHdG), NADPH oxidase, and superoxide levels). Samples of the left ventricular free wall (LVFW), right ventricular free wall (RVFW), interventricular septum (IVS), and aortic root were harvested from both groups (n = 6 for each group). Using these tissue samples, angiotensin II type 1 receptor (AT1R), 8OHdG, and transforming growth factor β1 (TGFβ1) immunohistochemical stains were performed.Results: The blood NADPH oxidase concentration was significantly higher (P=0.027) in the P group 84 days after initiation of the medication compared to that before prednisolone treatment. By contrast, there was no significant difference in serum angiotensin II (P=0.450), 8OHdG (P=0.068), and superoxide (P=0.057) concentrations. The positive staining rates of AT1R, 8OHdG, and TGFβ1 in the heart (LVFW, RVFW, IVS, and aortic root) were significantly higher in the P group than those in the C group.Conclusion: Angiotensin II and oxidative stress in HGC may cause left ventricular fibrosis in dogs.
  • Ryoichi SUZUKI, Masakazu SHIMADA, Kunihiro MORIMOTO, Nobuo KANNO, Shuji SUZUKI, Takuya YOGO, Yasuji HARADA, Masaki MICHISHITA, Yasushi HARA
    Japanese Journal of Veterinary Anesthesia & Surgery, 54(2) 45-52, 2023  
  • Sachiyo Tanaka, Shuji Suzuki, Misaki Shimura, Asaka Kawana, Aki Tanaka, Satoshi Soeta, Yasushi Hara
    Open Veterinary Journal, 13(2) 150-150, 2023  
    Background: In recent years, left ventricular hypertrophy and cardiac dysfunction have been reported in human and canine patients with hypercortisolism (HAC) and in dogs treated experimentally with high-dose prednisolone. However, to our knowledge, there have been no reports on the effects of hyperglucocorticism (HGC) on the mitral valve (MV). Aim: This study aimed to compare the MV in dogs treated with high-dose prednisolone with that in healthy dogs to investigate the effects of HGC on the MV.Methods: We investigated the effects of HGC on the MV by comparing samples obtained from high-dose glucocorticoid-treated (P) and healthy (C) dogs. The P group included healthy Beagle dogs (n = 6) treated with prednisolone (2 mg/kg, bid, po) for 84 days and the C group included healthy Beagle dogs (n = 6) euthanized for unrelated reasons. The anterior and posterior mitral leaflets (AML and PML, respectively) from both groups were harvested and stained with hematoxylin–eosin, Alcian blue, and Masson trichome. Additionally, adiponectin (ADN) and glucocorticoid receptor immunohistochemistry were performed. Histological evaluation was performed in the atrialis, spongiosa, fibrosa, and all layers of the proximal, middle, and distal regions of the AML and PML. Results: The proportion of the spongiosa layer thickness to the total thickness was higher in the P than in the C group (proximal and middle AML). However, the proportion of the fibrosa layer thickness to the total thickness was lower in the P than in the C group (middle PML). Areas of acidic sulfated mucosubstance deposition were smaller in the fibrosa layer and all layers (middle AML), while those of collagen deposition were smaller in the spongiosa and total layers (proximal and middle AML), in the P than in the C group. Additionally, ADN expression in the spongiosa layer was higher in the P than in the C group (middle AML). Conclusion: These findings suggest that long-term administration of synthetic glucocorticoids induces histological changes in the MV. These changes may lead to MV dysfunction in dogs with HGC.
  • Sachiyo Tanaka, Shuji Suzuki, Mana Oishi, Satoshi Soeta, Ryosuke Namiki, Yasushi Hara
    BMC veterinary research, 18(1) 397-397, Nov 12, 2022  
    BACKGROUND: Pituitary-dependent hypercortisolism (PDH) is one of the most common endocrine disorders in veterinary medicine. However, there are few reports on pituitary tumor apoplexy (PTA) in dogs and no reports on its surgical intervention in veterinary medicine. Accordingly, the appropriate treatment is unknown. Herein, a case of PDH and PTA in a dog treated surgically is described. CASE PRESENTATION: A mongrel female dog (spayed; age, 8 years and 8 months; weight, 6.1 kg) with persistently elevated alkaline phosphatase underwent adrenocorticotropic hormone (ACTH) stimulation testing (post-stimulation cortisol: 20.5 μg/dL), abdominal ultrasonography (adrenal gland thickness: left, 5.7 mm; right, 8.1 mm), and brain magnetic resonance imaging (MRI) (pituitary-to-brain ratio [PBR], 0.61) at the referral hospital, resulting in a diagnosis of PDH (day 0). On day 9, the dog visited XXXX for the preparation of pituitary surgery to treat PDH. However, on days 10-15, the dog developed a loss of energy and appetite, bloody diarrhea, vomiting, and a decreased level of consciousness. However, on day 16, the dog's condition recovered. A preoperative MRI scan performed on day 52 (the day of surgery) showed apoplexy in the dorsal pituitary region (PBR, 0.68). Based on the PTA findings, the risks of surgery were described to the owner, and approval was obtained. At the time of trans-sphenoidal surgery, a partial pituitary resection was performed with preservation of the PTA area due to adhesions between the PTA area of the right side of the pituitary and surrounding tissues. The resected pituitary tissue was diagnosed as an ACTH-producing adenoma, with necrotic and hemorrhagic findings. As of day 290, endogenous ACTH and cortisol levels did not exceed the reference range. CONCLUSIONS: The acute signs that occurred on days 10-15 were most likely caused by PTA. Therefore, when signs similar to those detected in acute hypoadrenocorticism are observed in dogs with PDH, it is necessary to include PTA as a differential diagnosis. Trans-sphenoidal surgery may be effective in PDH-affected dogs that develop PTA, but careful attention should be paid to tissue adhesions secondary to hemorrhage that may occur after PTA.

Misc.

 118

Books and Other Publications

 1

Teaching Experience

 8